is a versatile liquid based separation technology, which works carrier free (i.e. without separation matrices like gels or stationary phases).

The Free Flow Electrophoresis System consists of two parallel plates, creating the separation chamber. The gap between these plates can be chosen by spacers. The usual gap sizes are 0.175 - 0.4 mm.

The sample and buffers are aspirated by pumps and injected into the separation chamber.

Under laminar flow, the sample is transported within a thin film of aqueous medium (proprietary ProLyte reagent).

The two plates are flanked by two electrodes which generate a high voltage electric field perpendicular to the laminar flow. Charged particles (proteins, peptides organelles,membrane fragments or whole cells) are deflected, allowing for subsequent separation and/or fractionation.

The separated sample is collected in standard 96-well microplate format.

After the instrument is set up, the sample is applied into the flowing separation buffer

As it moves through the chamber and thus through the applied electric field, the sample is being separated either by its pI value (isoelectric focusing) or its net charge (zone electrophoresis).

Finally, the separated sample is collected in 96 well microtiter plates

Watch a video to see the operation principle in detail:

a continuous technique for separating different molecules by differences in their isoelectric point (pI).

The separation buffers contain either commercial ampholytes or Prolyte reagents to form a pH gradient within the separation chamber.

The pH gradient is established when the high voltage is turned on. After the gradient is stabilized, usually within 10 - 15 minutes, the sample is applied continuously into the laminar flow of the separation buffers.

The analytes get separated as they move through the chamber and they focus at their isoelectric point.

At the end of the chamber the analytes reach the fractionation outlets and the separated sample is collected in mirotiter or deep well plates.

As the pH gradient is stable over time, the amounts of sample to be separated can range from analytical to preparative quantities.

The continuous way of separation enables preparative throughput of up to 2mg/hour.

is a continuous technique for separating different molecules by their net charge.

The separation buffers have an constant pH, which can be adjusted to the needs of the analyte.

The sample is applied continuously into the laminar flow of separation buffer.

As the analyte passes through the electric field within the separation chamber, they get deflected according to their net charge. I.e. negatively charged particles are deflected towards the anode and the higher the net charge, the wider is the deflection

At the end of the chamber the analytes reach the fractionation outlets and the separated sample is collected in mirotiter or deep well plates.

Zone electrophoresis is a non focusing technique and it is used mainly for organelle, cell and particle separation.

is a novel high resolution separation technique for separating different molecules by their net charge.

The sample is applied batch wise into the laminar flow of separation buffer and the high voltage is turned on.

Subsequently the buffer flows slowly through the separation chamber, allowing the analytes to separate.

As the analyte passes through the electric field within the separation chamber, they get deflected according to their net charge. I.e. negatively charged particles are deflected towards the anode and the higher the net charge, the wider is the deflection

As the sample reaches the end of the chamber the high voltage is turned off and the analytes get flushed out of the separation cell.

With the new robotic system, the whole process can be automated for the repetition of single runs.

The main benefits of iZE are:

compatible for clinical apporaches, separation buffers contain just a few well defined chemicals (acid, base and mannitol).

compatible to any other separation techniques (like 2D-PAGE or LC)

compatible with any subsequent analytical technique

The procedure is divided into five steps:

1) Sample injection, for flushing a certain amount of sample into the separation cell

2) Sample alignment, aligns the sample to the electrodes

3) Separation, high resolution separation of the analytes

4) Sample elution

5) Collection of the sample in 96-well microtiter or deep well plates

IZE-pH-Mode

Our latest development: pH steps in the separation media are utilised to increase band sharpening.Analytes migrating to the electrode are passing several pH steps. Each passed pH step results in band sharpening.

Comparison of iZE and iZE pH

The direct comparis of iZE with constant pH and iZE with pH-steps shows a significant increase of resolution due to thge band shapening effect of the pH-steps.

In this example the pI markers (bars) pH 4.0 and 4.75, which overlap at constant pH are clearly separated apart using pH steps and the overall pattern is sharper.

The dotted line is the pH profile of the separation.

iZE pH is used for protein complex separation and cell extracts, separations are possible between 5 to 8 minutes per iZE cicle.